@ -207,9 +207,42 @@ handle_view_destroy(struct wl_listener *listener, void *data)
exposay_surface_destroy ( esurface ) ;
}
/* Pretty lame layout for now; just tries to make a square. Should take
/* Compute each surface size and then inner pad (10% of surface size).
* After that , it ' s necessary to recompute surface size ( 90 % of its
* original size ) . Also , each surface can ' t be bigger than half the
* exposay area width and height .
*/
static void
exposay_surface_and_inner_pad_size ( pixman_rectangle32_t exposay_area , struct exposay_output * eoutput )
{
if ( exposay_area . height < exposay_area . width )
eoutput - > surface_size =
( exposay_area . height - ( eoutput - > vpadding_outer * 2 ) ) / eoutput - > grid_size ;
else
eoutput - > surface_size =
( exposay_area . width - ( eoutput - > hpadding_outer * 2 ) ) / eoutput - > grid_size ;
eoutput - > padding_inner = eoutput - > surface_size / 10 ;
eoutput - > surface_size - = eoutput - > padding_inner ;
if ( ( uint32_t ) eoutput - > surface_size > ( exposay_area . width / 2 ) )
eoutput - > surface_size = exposay_area . width / 2 ;
if ( ( uint32_t ) eoutput - > surface_size > ( exposay_area . height / 2 ) )
eoutput - > surface_size = exposay_area . height / 2 ;
}
/* Pretty lame layout for now; just tries to make a square. Should take
* aspect ratio into account really . Also needs to be notified of surface
* addition and removal and adjust layout / animate accordingly . */
* addition and removal and adjust layout / animate accordingly .
*
* Lay the grid out as square as possible , losing surfaces from the
* bottom row if required . Start with fixed padding of a 10 % margin
* around the outside , and maximise the area made available to surfaces
* after this . Also , add an inner padding between surfaces that varies
* with the surface size ( 10 % of its size ) .
*
* If we can ' t make a square grid , add one extra row at the bottom which
* will have a smaller number of columns .
*/
static enum exposay_layout_state
exposay_layout ( struct desktop_shell * shell , struct shell_output * shell_output )
{
@ -219,7 +252,6 @@ exposay_layout(struct desktop_shell *shell, struct shell_output *shell_output)
struct weston_view * view ;
struct exposay_surface * esurface , * highlight = NULL ;
pixman_rectangle32_t exposay_area ;
int w , h ;
int pad ;
int i ;
int last_row_removed = 0 ;
@ -246,40 +278,18 @@ exposay_layout(struct desktop_shell *shell, struct shell_output *shell_output)
* the shell panel position and size */
get_output_work_area ( shell , output , & exposay_area ) ;
/* Lay the grid out as square as possible, losing surfaces from the
* bottom row if required . Start with fixed padding of a 10 % margin
* around the outside and 80 px internal padding between surfaces , and
* maximise the area made available to surfaces after this , but only
* to a maximum of 1 / 3 rd the total output size .
*
* If we can ' t make a square grid , add one extra row at the bottom
* which will have a smaller number of columns .
*
* XXX : Surely there has to be a better way to express this maths ,
* right ? !
*/
/* Compute grid size */
eoutput - > grid_size = floor ( sqrtf ( eoutput - > num_surfaces ) ) ;
if ( pow ( eoutput - > grid_size , 2 ) ! = eoutput - > num_surfaces )
eoutput - > grid_size + + ;
last_row_removed = pow ( eoutput - > grid_size , 2 ) - eoutput - > num_surfaces ;
/* Fixed outer padding of 10% the size of the screen */
eoutput - > hpadding_outer = ( exposay_area . width / 10 ) ;
eoutput - > vpadding_outer = ( exposay_area . height / 10 ) ;
eoutput - > padding_inner = 80 ;
w = exposay_area . width - ( eoutput - > hpadding_outer * 2 ) ;
w - = eoutput - > padding_inner * ( eoutput - > grid_size - 1 ) ;
w / = eoutput - > grid_size ;
h = exposay_area . height - ( eoutput - > vpadding_outer * 2 ) ;
h - = eoutput - > padding_inner * ( eoutput - > grid_size - 1 ) ;
h / = eoutput - > grid_size ;
eoutput - > surface_size = ( w < h ) ? w : h ;
if ( ( uint32_t ) eoutput - > surface_size > ( exposay_area . width / 2 ) )
eoutput - > surface_size = exposay_area . width / 2 ;
if ( ( uint32_t ) eoutput - > surface_size > ( exposay_area . height / 2 ) )
eoutput - > surface_size = exposay_area . height / 2 ;
/* Compute each surface size and the inner padding between them */
exposay_surface_and_inner_pad_size ( exposay_area , eoutput ) ;
pad = eoutput - > surface_size + eoutput - > padding_inner ;